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Processor 1/7 - Clevo P170EM Service Manual

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Schematic Diagrams

Processor 1/7

Sheet 3 of 61
Processor 1/7
CAD NOTE: DP_COMPIO and ICOMPO signals
should be shorted near balls and routed with
- typical impedance < 25 mohms
15
iGP_eDP_HPD
B - 4 Processor 1/7
Ivy Bridge Processor 1/7 ( DMI,PEG,FDI )
U32A
B27
22
DMI_TXN0
DMI_RX#[0]
B25
22
DMI_TXN1
DMI_RX#[1]
A25
22
DMI_TXN2
DMI_RX#[2]
B24
22
DMI_TXN3
DMI_RX#[3]
B28
22
DMI_TXP0
DMI_RX[0]
B26
22
DMI_TXP1
DMI_RX[1]
A24
22
DMI_TXP2
DMI_RX[2]
B23
22
DMI_TXP3
DMI_RX[3]
G21
22
DMI_RXN0
E22
DMI_TX#[0]
22
DMI_RXN1
F21
DMI_TX#[1]
22
DMI_RXN2
DMI_TX#[2]
D21
22
DMI_RXN3
DMI_TX#[3]
G22
22
DMI_RXP0
DMI_TX[0]
D22
22
DMI_RXP1
DMI_TX[1]
F20
22
DMI_RXP2
DMI_TX[2]
C21
22
DMI_RXP3
DMI_TX[3]
22
FDI_TXN[7..0]
FDI_TXN0
A21
FDI0_TX#[0]
FDI_TXN1
H19
FDI0_TX#[1]
FDI_TXN2
E19
F18
FDI0_TX#[2]
FDI_TXN3
B21
FDI0_TX#[3]
FDI_TXN4
FDI1_TX#[0]
C20
FDI_TXN5
FDI1_TX#[1]
FDI_TXN6
D18
FDI1_TX#[2]
FDI_TXN7
E17
FDI1_TX#[3]
22
FDI_TXP[7..0]
A22
FDI_TXP0
G19
FDI0_TX[0]
FDI_TXP1
FDI0_TX[1]
E20
FDI_TXP2
FDI0_TX[2]
FDI_TXP3
G18
FDI0_TX[3]
FDI_TXP4
B20
FDI1_TX[0]
FDI_TXP5
C19
FDI1_TX[1]
FDI_TXP6
D19
FDI1_TX[2]
FDI_TXP7
F17
FDI1_TX[3]
J18
22
FDI_FSY NC0
FDI0_FSY NC
J17
22
FDI_FSY NC1
FDI1_FSY NC
H20
22
FDI_INT
FDI_INT
J19
22
FDI_LSYNC0
H17
FDI0_LSYNC
22
FDI_LSYNC1
FDI1_LSYNC
DP Compensation Signal
A18
1.05VS_VTT
eDP_COMPIO
R315
24.9_1%_04
A17
B16
eDP_ICOMPO
eDP_HPD
1.05VS_VTT
C15
15
iGP_eDP_SCL
eDP_AUX
D15
15
iGP_eDP_SDA
eDP_AUX#
R44
1K_04
C17
15
iGP_eDP_TX0
F16
eDP_TX[0]
15
iGP_eDP_TX1
C16
eDP_TX[1]
15
iGP_eDP_TX2
eDP_TX[2]
G15
15
iGP_eDP_CLK
eDP_TX[3]
C18
Q9
15
iGP_eDP_TX#0
eDP_TX#[0]
E16
15
iGP_eDP_TX#1
eDP_TX#[1]
G
D16
15
iGP_eDP_TX#2
F15
eDP_TX#[2]
MTN7002ZHS3
15
iGP_eDP_CLK#
eDP_TX#[3]
R35
Iv y Bridge_rPGA_2DPC_Rev 0p61
100K_04
D03 modify
3.3V
C452
*0.1u_10V_X7R_04
20 mil
J22
PEG_IRCOMP_R
R95
PEG_ICOMPI
J21
PEG_ICOMPO
H22
PEG_RCOMPO
K33
C433
0.22u_10V_X5R_04
PEG_RXN0
PEG_RX#[0]
M35
C467
0.22u_10V_X5R_04
PEG_RXN1
PEG_RX#[1]
L34
C431
0.22u_10V_X5R_04
PEG_RXN2
PEG_RX#[2]
J35
C465
0.22u_10V_X5R_04
PEG_RXN3
PEG_RX#[3]
J32
PEG_RXN4
C447
0.22u_10V_X5R_04
PEG_RX#[4]
H34
PEG_RXN5
C463
0.22u_10V_X5R_04
PEG_RX#[5]
H31
C445
0.22u_10V_X5R_04
PEG_RXN6
PEG_RX#[6]
G33
C461
0.22u_10V_X5R_04
PEG_RXN7
PEG_RX#[7]
G30
C443
0.22u_10V_X5R_04
PEG_RXN8
PEG_RX#[8]
F35
C459
0.22u_10V_X5R_04
PEG_RXN9
PEG_RX#[9]
E34
C441
0.22u_10V_X5R_04
PEG_RXN10
PEG_RX#[10]
E32
PEG_RXN11
C457
0.22u_10V_X5R_04
PEG_RX#[11]
D33
PEG_RXN12
C439
0.22u_10V_X5R_04
PEG_RX#[12]
D31
PEG_RXN13
C455
0.22u_10V_X5R_04
PEG_RX#[13]
B33
C437
0.22u_10V_X5R_04
PEG_RXN14
PEG_RX#[14]
C32
C453
0.22u_10V_X5R_04
PEG_RXN15
PEG_RX#[15]
J33
C434
0.22u_10V_X5R_04
PEG_RXP0
PEG_RX[0]
L35
PEG_RXP1
C468
0.22u_10V_X5R_04
PEG_RX[1]
K34
PEG_RXP2
C432
0.22u_10V_X5R_04
PEG_RX[2]
H35
PEG_RXP3
C466
0.22u_10V_X5R_04
PEG_RX[3]
H32
C448
0.22u_10V_X5R_04
PEG_RXP4
PEG_RX[4]
G34
C464
0.22u_10V_X5R_04
PEG_RXP5
PEG_RX[5]
G31
C446
0.22u_10V_X5R_04
PEG_RXP6
PEG_RX[6]
F33
C462
0.22u_10V_X5R_04
PEG_RXP7
PEG_RX[7]
F30
C444
0.22u_10V_X5R_04
PEG_RXP8
PEG_RX[8]
E35
PEG_RXP9
C460
0.22u_10V_X5R_04
PEG_RX[9]
E33
PEG_RXP10
C442
0.22u_10V_X5R_04
PEG_RX[10]
F32
C458
0.22u_10V_X5R_04
PEG_RXP11
PEG_RX[11]
D34
C440
0.22u_10V_X5R_04
PEG_RXP12
PEG_RX[12]
E31
C456
0.22u_10V_X5R_04
PEG_RXP13
PEG_RX[13]
C33
C438
0.22u_10V_X5R_04
PEG_RXP14
PEG_RX[14]
B32
C454
0.22u_10V_X5R_04
PEG_RXP15
PEG_RX[15]
M29
PEG_TXN0
C64
0.22u_10V_X5R_04
PEG_TX#[0]
M32
PEG_TXN1
C86
0.22u_10V_X5R_04
PEG_TX#[1]
M31
C66
0.22u_10V_X5R_04
PEG_TXN2
PEG_TX#[2]
L32
C68
0.22u_10V_X5R_04
PEG_TXN3
PEG_TX#[3]
L29
C88
0.22u_10V_X5R_04
PEG_TXN4
PEG_TX#[4]
K31
C70
0.22u_10V_X5R_04
PEG_TXN5
PEG_TX#[5]
K28
PEG_TXN6
C90
0.22u_10V_X5R_04
PEG_TX#[6]
J30
PEG_TXN7
C72
0.22u_10V_X5R_04
PEG_TX#[7]
J28
PEG_TXN8
C92
0.22u_10V_X5R_04
PEG_TX#[8]
H29
C74
0.22u_10V_X5R_04
PEG_TXN9
PEG_TX#[9]
G27
C94
0.22u_10V_X5R_04
PEG_TXN10
PEG_TX#[10]
E29
C76
0.22u_10V_X5R_04
PEG_TXN11
PEG_TX#[11]
F27
C96
0.22u_10V_X5R_04
PEG_TXN12
PEG_TX#[12]
D28
C78
0.22u_10V_X5R_04
PEG_TXN13
PEG_TX#[13]
F26
PEG_TXN14
C98
0.22u_10V_X5R_04
PEG_TX#[14]
E25
PEG_TXN15
C80
0.22u_10V_X5R_04
PEG_TX#[15]
M28
C63
0.22u_10V_X5R_04
PEG_TXP0
PEG_TX[0]
M33
C85
0.22u_10V_X5R_04
PEG_TXP1
PEG_TX[1]
M30
C65
0.22u_10V_X5R_04
PEG_TXP2
PEG_TX[2]
L31
C67
0.22u_10V_X5R_04
PEG_TXP3
PEG_TX[3]
L28
PEG_TXP4
C87
0.22u_10V_X5R_04
PEG_TX[4]
K30
PEG_TXP5
C69
0.22u_10V_X5R_04
PEG_TX[5]
K27
PEG_TXP6
C89
0.22u_10V_X5R_04
PEG_TX[6]
J29
C71
0.22u_10V_X5R_04
PEG_TXP7
PEG_TX[7]
J27
C91
0.22u_10V_X5R_04
PEG_TXP8
PEG_TX[8]
H28
C73
0.22u_10V_X5R_04
PEG_TXP9
PEG_TX[9]
G28
C93
0.22u_10V_X5R_04
PEG_TXP10
PEG_TX[10]
E28
PEG_TXP11
C75
0.22u_10V_X5R_04
PEG_TX[11]
F28
PEG_TXP12
C95
0.22u_10V_X5R_04
PEG_TX[12]
D27
PEG_TXP13
C77
0.22u_10V_X5R_04
PEG_TX[13]
E26
C97
0.22u_10V_X5R_04
PEG_TXP14
PEG_TX[14]
D25
C79
0.22u_10V_X5R_04
PEG_TXP15
PEG_TX[15]
Analog Thermal Sensor
D03 modify
add RT5, R276
3.3V
6-17-10300-730
RT5
10K_1%_NTC_06
Q20
2
1
1:2 (4mils:8mils)
THERM_VOLT 35
VCC
OUT
3
C451
R276
GND
10K_1%_04
*G711ST9U
*0.1u_10V_X7R_04
1
3
2
PLACE NEAR U3
1.05VS_VTT
24.9_1%_04
PEG_RXN[0..15] 14
PEG_RXP[0..15] 14
PEG Compensation Signal
CAD NOTE: PEG_ICOMPI and RCOMPO signals
PEG_TXN[0..15] 14
should be shorted and routed with
- max length = 500 mils
- typical impedance = 43 mohms
PEG_ICOMPO signals should be routed with
- max length = 500 mils
- typical impedance = 14.5 mohms
PEG_TXP[0..15] 14
4,6,25,26,27,44,45,48
1.05VS_VTT
4,7,15,20,21,22,24,25,26,27,30,31,33,37,38,41,43,44
3.3V
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